TY  - BOOK
AU  - Sousa,Alioscka A.
AU  - Kruhlak,Michael J.
TI  - Nanoimaging: methods and protocols 
T2  - Methods in molecular biology
SN  - 9781627031370
AV  - R857.N34 
U1  - 616.0757 23
PY  - 2013///
CY  - New York
PB  - Humana Press
KW  - Nanoparticles
KW  - Diagnostic use
KW  - Laboratory manuals
KW  - Diagnostic imaging
KW  - Microelectronics
KW  - Physical sciences
KW  - Biomedical engineering
KW  - Diagnosis
KW  - Technology
KW  - Manufactures
KW  - Physics
KW  - Nanotechnology
KW  - Methodology
KW  - Nanomedicine
KW  - Diagnostic Techniques and Procedures
KW  - Investigative Techniques
KW  - Miniaturization
KW  - Publication Formats
KW  - Nanostructures
KW  - Optics and Photonics
KW  - Natural Science Disciplines
KW  - Biomedical Technology
KW  - Disciplines and Occupations
KW  - Publication Characteristics
KW  - Analytical, Diagnostic and Therapeutic Techniques and Equipment
KW  - Manufactured Materials
KW  - Technology, Industry, and Agriculture
KW  - Technology, Industry, Agriculture
KW  - Methods
KW  - Diagnostic Imaging
KW  - Microscopy
KW  - Laboratory Manuals
KW  - Nanoparticules
KW  - Utilisation diagnostique
KW  - Manuels de laboratoire
KW  - Imagerie pour le diagnostic
KW  - Diagnostics
KW  - Méthodologie
KW  - Microélectronique
KW  - Sciences physiques
KW  - Génie biomédical
KW  - Technologie
KW  - Produits manufacturés
KW  - Physique
KW  - Nanomédecine
KW  - Nanotechnologie
KW  - microelectronics
KW  - aat
KW  - physical sciences
KW  - biomedical engineering
KW  - diagnosis
KW  - physics
KW  - methodology
KW  - fast
KW  - geneeskunde
KW  - medicine
KW  - volksgezondheid
KW  - public health
KW  - afbeelden
KW  - imagery
KW  - radiologie
KW  - radiology
KW  - microscopie
KW  - microscopy
KW  - biologische technieken
KW  - biological techniques
KW  - Medicine (General)
KW  - Geneeskunde (algemeen)
KW  - Laboratory Manual
KW  - lcgft
KW  - rvmgf
N1  - Includes bibliographical references and index; Introduction : nanoimaging techniques in biology; Alioscka A. Sousa and Michael J. Kruhlak --; Live-cell imaging of vesicle trafficking and divalent metal ions by total internal reflection fluorescence (TIRF) microscopy; Merewyn K. Loder, Takashi Tsuboi, and Guy A. Rutter --; 4Pi microscopy; Roman Schmidt, Johann Engelhardt, and Marion Lang ---; Fluorescence in situ hybridization applications for super-resolution 3D structured illumination microscopy; Yolanda Markaki [and others] --; Two-color STED imaging of synapses in living brain slices; Jan Tonnesen and U. Valentin Nagerl --; Super-resolution imaging by localization microscopy; Dylan M. Owen [and others] --; High-content super-resolution imaging of live cell by uPAINT; Gregory Giannone [and others] --; Super-resolution fluorescence imaging with blink microscopy; Christian Steinhauer, Michelle S. Itano, and Philip Tinnefeld --; Photoswitchable fluorophores for single-molecule localization microscopy; Kieran Finan, Benjamin Flottmann, and Mike Heilemann --; Single-molecule tracking of mRNA in living cells; Mai Yamagishi, Yoshitaka Shirasaki, and Takashi Funatsu --; Semiautomatic, high-throughput, high-resolution protocol for three-dimensional reconstruction of single particles in electron microscopy; Carlos Oscar Sorzano [and others] --; Mass mapping of amyloid fibrils in the electron microscope using STEM imaging; Alioscka A. Sousa and Richard D. Leapman --; Elemental mapping by electron energy loss spectroscopy in biology; Maria A. Aronova and Richard D. Leapman --; Cellular nanoimaging by cryo electron tomography; Roman I. Koning and Abraham J. Koster --; Large-volume reconstruction of brain tissue from high-resolution serial section images acquired by SEM-based scanning transmission electron microscopy; Masaaki Kuwajima, John M. Mendenhall, and Kristen M. Harris --; 3D imaging of cells and tissues by focused ion beam/ scanning electron microscopy (FIB/SEM); Damjana Drobne --; Preparation of gold nanocluster bioconjugates for electron microscopy; Christine L. Heinecke and Christopher J. Ackerson --; Atomic force microscopy imaging of macromolecular complexes; Sergio Santos, Daniel Billingsley, and Neil Thomson --; Imaging of transmembrane proteins directly incorporated within supported lipid bilayers using atomic force microscopy; Daniel Levy and Pierre-Emmanuel Milhiet --; Functional AFM imaging of cellular membranes using functionalized tips; Lilia A. Chtcheglova and Peter Hinterdorfer --; Near-field scanning optical microscopy for high-resolution membrane studies; Heath A. Huckabay [and others] --; Correlative fluorescence and EFTEM imaging of the organized components of the mammalian nucleus; Michael J. Kruhlak --; High data output method for 3-D correlative light-electron microscopy using ultrathin cryosections; Katia Cortese [and others] --; Correlative optical and scanning probe microscopies for mapping interactions at membranes; Christopher M. Yip --; Nanoimaging cells using soft x-ray tomography; Dilworth Y. Parkinson [and others] --; Secondary ion mass spectrometry imaging of biological membranes at high spatial resolution; Haley A. Klitzing, Peter K. Weber, and Mary L. Kraft.o
N2  - For more than a century, microscopy has been a centerpiece of extraordinary discoveries in biology. Along the way, remarkable imaging tools have been developed allowing scientists to dissect the complexity of cellular processes at the nano length molecular scales. Nanoimaging: Methods and Protocols presents a diverse collection of microscopy techniques and methodologies that provides guidance to successfully image cellular molecular complexes at nanometer spatial resolution. The book's four parts cover: (1) light microscopy techniques with a special emphasis on methods that go beyond the classic diffraction-limited imaging; (2) electron microscopy techniques for high-resolution imaging of molecules, cells and tissues, in both two and three dimensions; (3) scanning probe microscopy techniques for imaging and probing macromolecular complexes and membrane surface topography; and (4) complementary techniques on correlative microscopy, soft x-ray tomography and secondary ion mass spectrometry imaging. Written in the successful format of the Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and accessible, Nanoimaging: Methods and Protocols highlights many of the most exciting possibilities in microscopy for the investigation of biological structures at the nano length molecular scales
UR  - https://link-springer-com.libraryproxy.ist.ac.at/10.1007/978-1-62703-137-0
ER  -